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Significant Improvement in Shoulder Function and Pain in Patients Following Biologic Augmentation of Revision Arthroscopic Rotator Cuff Repair Using an Autologous Fibrin Scaffold and Bone Marrow Aspirate Derived From the Proximal Humerus
Department of Trauma Surgery, Regensburg University Medical Center, GermanyDepartment of Orthopaedic Sports Medicine, Technical University of Munich, GermanySporthopaedicum, Regensburg/Straubing, Germany
Department of Orthopaedic Sports Medicine, Technical University of Munich, GermanyDepartment of Shoulder Surgery, Arthroscopy and Orthopaedic Sports Medicine, ATOS, Orthoparc Clinic, Cologne, Germany
Department of Orthopaedic Sports Medicine, Technical University of Munich, GermanyDepartment of Orthopaedic Surgery, University of Connecticut Health Center, Farmington, Connecticut, U.S.A.
Department of Orthopaedic Sports Medicine, Technical University of Munich, GermanyDepartment of Orthopaedic Surgery, University of Connecticut Health Center, Farmington, Connecticut, U.S.A.
To clinically evaluate patients who underwent a biologic augmentation technique in revision arthroscopic rotator cuff repair using an autologous fibrin scaffold and concentrated stem cells isolated from bone marrow aspirate (BMA) obtained from the proximal humerus.
Methods
This is a retrospective review of prospectively collected data from patients who underwent biologic augmentation of revision arthroscopic rotator cuff repair using an autologous fibrin scaffold and BMA obtained from the proximal humerus between 2014 and 2015. Minimum follow-up was 12 months. Outcome measures were collected preoperatively and postoperatively including range of motion as well as American Shoulder and Elbow Surgeons Shoulder Form, Simple Shoulder Test, single assessment numeric evaluation, and visual analog score. In addition, BMA samples of each patient were assessed for the number of nucleated cells and colony-forming units. Regression analysis was performed to investigate whether the number of nucleated cells and colony-forming units had an influence on outcome and failure.
Results
Ten patients who underwent biologic augmentation of revision arthroscopic rotator cuff repair using an autologous fibrin scaffold and concentrated BMA obtained from the proximal humerus between 2014 and 2015 were included. The mean follow-up time was 30.7 (range: 12-49) months. Four patients were revised at final follow-up. Postoperative clinical scores improved significantly: American Shoulder and Elbow Surgeons (28.1 ± 5.4 to 60.9 ± 9.0; P < .01), single assessment numeric evaluation (6.6 ± 2.3 to 65.1 ± 10.9; P < .01), visual analog scale (7.2 ± 0.9 to 3.1 ± 0.9; P < .01), and Simple Shoulder Test (1.6 ± 0.5 to 10.3 ± 5.7; P < .01). Postoperative range of motion increased significantly with regard to flexion (97.0 ± 13.6 to 151.0 ± 12.2; P < .01) and abduction (88.0 ± 14.0 to 134.0 ± 15.1; P = .038) but not with external rotation (38.0 ± 5.7 to 50.5 ± 6.5; P = .16). Less pain was correlated to an increased number of nucleated cells (P = .026); however, there was no correlation between failure rate and number of nucleated cells (P = .430).
Conclusions
Patients who underwent biologic augmentation of revision arthroscopic rotator cuff repair using an autologous fibrin scaffold and concentrated BMA demonstrated a significant improvement in shoulder function along with reduction of pain. However, the overall revision rate for this procedure was 40%.
Level of Evidence
Level IV, therapeutic case series.
When approaching arthroscopic rotator cuff (RC) surgery, high failure rates, varying between 15% and 80% of cases,
Even though the exact etiology of biologic failure leading to retears after RC repair is not yet fully understood, the formation of tendinous tissue has been shown to be a relevant problem.
As the continuous evolvement of arthroscopic techniques has led to excellent biomechanical properties with regard to tendon-to-bone fixation, recent research has focused on improving RC healing with biological augmentation.
Various ideas have been proposed to aid and potentially improve the limited endogenous healing potential of the RC tissue including the use of concentrated stem cells isolated from bone marrow aspirate (cBMA).
Biologic augmentation of rotator cuff repair with mesenchymal stem cells during arthroscopy improves healing and prevents further tears: A case-controlled study.
As such, various techniques, and harvest sites, including the proximal humerus, have been demonstrated to be a reliable source of cBMAs for biologic augmentation during arthroscopic surgery.
Biologic augmentation of rotator cuff repair with mesenchymal stem cells during arthroscopy improves healing and prevents further tears: A case-controlled study.
showed a significant improvement in healing in primary RC repair by using bone marrow concentrated mesenchymal stromal cells (MSCs) obtained from the iliac crest. In addition, when compared with RC repair alone, a reduced failure rate after 10 years was demonstrated (13% vs 56%).
However, when compared with the proximal humerus, harvesting cBMA from the iliac crest may be limited to possible donor-site morbidity, as the harvest location for bone marrow aspiration from the humerus is the one used for anchor placement.
showed that samples of BMA harvested from the proximal humerus yielded a significantly greater amount of colony-forming units (CFUs) derived from BMA when compared with samples of BMA obtained from the ilium. In addition, when it comes to biologic augmentation in RC repair, delivery of biologic adjuvants can be challenging. Various techniques
Does application of moderately concentrated platelet-rich plasma improve clinical and structural outcome after arthroscopic repair of medium-sized to large rotator cuff tear? A randomized controlled trial.
have been described; however, scaffolds often are noted to be expensive, tend to loosen, or may float away. Finally, when using biologic augmentation of arthroscopic RC repair, the current literature is focused on primary repair, as the high-failure rate in revision surgery may put this technique beyond the confidence of a shoulder surgeon.
The purpose of this study was to clinically evaluate patients who underwent a biologic augmentation technique in revision arthroscopic RC repair using an autologous fibrin scaffold and cBMA obtained from the proximal humerus. The authors hypothesized patients who underwent biologic augmentation of revision arthroscopic RC repair using an autologous fibrin scaffold and cBMA would have a significant improvement in shoulder function at a minimum 1-year follow-up.
Methods
A retrospective review of prospectively collected data from an institutional shoulder registry was performed. All patients included were older than 18 years of age and undergoing revision arthroscopic RC repair augmented using an autologous fibrin scaffold and cBMA harvested from the proximal humerus. Surgeries were performed by a single, shoulder fellowship–trained surgeon (A.D.M.), from January 2014 to March 2015. Institutional review board approval was obtained before initiation of the study by the University of Connecticut (institutional review board #06-577-2). Patients were included regardless of socioeconomic factors or comorbidities. Patients with less than 1 year of follow-up, RC tear arthropathy (Hamada grade >3), irreparable massive tears, previous RC surgery requiring tendon transfers, nerve injuries, preoperative pseudoparalysis, or fatty infiltration greater than Goutallier grade III on magnetic resonance imaging (MRI) were excluded from the study. All alternative treatment options were discussed with the patient, including continued conservative treatment. Basic demographic information (age, sex, and body mass index) as well as a thorough medical and surgical history were obtained for each patient.
Clinical and Functional Outcomes
Objective and subjective outcome measures including the American Shoulder and Elbow Surgeons (ASES) Score,
A practical tool for evaluating function: the simple shoulder test.
in: Matsen F.A. Fu F.H. Hawkins R.J. The shoulder: A balance of mobility and stability. American Academy of Orthopaedic Surgeons,
Rosemont, IL1993: 501-518
the visual analog scale for pain, and range of motion in terms of active flexion, abduction, and external rotation were collected preoperatively and at terminal follow-up with a minimum follow-up of 1 year (A.D.M.) Pain scores were obtained from the ASES survey. Previous studies have confirmed these scores in terms of reliability, validity, and responsiveness.
In addition, the BMA of each patient was assessed for the number of nucleated cells and CFUs. Failure was defined if patients presented with continuous shoulder weakness and pain at minimum follow-up.
Surgical Technique: Autologous Fibrin Scaffold
Before surgery, all patients received detailed information about the operative technique. All surgeries were performed with the patient in the beach-chair position by a single, shoulder fellowship–trained surgeon (A.D.M.). Following an interscalene block and successful induction of general anesthesia, diagnostic arthroscopy was performed to confirm the presence of the RC retear and assess mobility for repair. Loose suture material and/or anchors from previous repairs were removed and the torn RC tendons were mobilized. The surgical technique using an autologous fibrin scaffold for biological augmentation has been described recently.
BMA was obtained from the proximal humerus during arthroscopic RC surgery. For this study, a nonfenestrated trocar was used as it showed a greater capability to extract progenitor cells from the proximal humerus.
The influence of trocar fenestration and volume on connective tissue progenitor cells (stem cells) in arthroscopic bone marrow aspiration from the proximal humerus.
The BMA was then transferred to an automated light-absorption system (Angel System; Arthrex, Naples, FL) for cell concentration. For reimplantation of the cBMA, the biologic scaffold consisted of platelet-poor plasma (source of fibrinogen), platelet-rich plasma (PRP; source for growth factors), and an external source of bovine thrombin used to activate the clotting cascade. The PRP and platelet-poor plasma preparation was performed as previously described.
Preliminary clinical outcomes following biologic augmentation of arthroscopic rotator cuff repair using subacromial bursa, concentrated bone marrow aspirate, and platelet-rich plasma.
While the fibrin clot was prepared on the back table by the technical nurse, the surgeon mobilized the RC tendon, placed the medial row suture anchors, and shuttled the medial row sutures through the lateral portal. A modified cannula (Arthrex) was used to shuttle down the fibrin scaffolds onto the footprint, followed by passing the sutures through the tendon followed by placement of the lateral row. This sequence of steps is important to ensure that the scaffold is properly positioned between the RC tendon and the footprint. Finally, an arthroscopic glenohumeral confirmation of the tendon repair was performed to check for scaffold loosening. Tendon repair was performed using a double-row suture bridge (Arthrex). Biceps tenotomy/tenodesis was not required, as all 10 patients had previous RC repair with biceps tenodesis or tenotomy. Subscapularis repair was not needed.
Rehabilitation
Patients were placed in 30° abduction sling for a minimum of 6 to 8 weeks with continuous passive and active assisted range of motion. Unrestricted active assisted external rotation and forward elevation was allowed on week 12, and RC muscle strengthening was initiated. Isometric exercises and advance to resisted isotonic exercises were started and continued until postoperative week 18. Focus was set on restoration of scapular stability and strength during the rehabilitation period
Cell Analysis
One milliliter from each bone marrow aspiration was removed to assess nucleated cell count and the number of CFUs. The cBMA was plated in 100 mm2 Primaria culture dishes (Fisher Scientific, Waltham, MA) and cultured according to a standard protocol.
Cells were placed an incubator at 37°C with 5% CO2. Media was changed after 24 hours and plates were checked every day for the appearance of colonies and contamination.
CFUs were counted after 7 to 10 days, where a CFU was defined as a cluster of cells containing ≥8 cells. Cell analysis was performed by N.B. and supervised by M.M.
Statistical Analysis
To analyze differences in the expected values between the 2 points in time (time of treatment and time of follow-up), regression analysis was conducted which regresses the variable of interest on a time dummy which is equal to zero at the initial point in time and equal to one at the point of second measurement. The corresponding slope of the regression line represents the difference in the mean between the 2 time points. An estimate that is significantly different from zero speaks for a significant effect of the treatment. The alpha level was 0.05 for all statistical tests, and the analysis was conducted using Stata (StataCorp 2017. Stata Statistical Software: Release 15; StataCorp LLC, College Station, TX).
Results
In a single surgeon's practice, 10 patients underwent revision RC repair between January 2014 to March 2015 using the autologous fibrin scaffold augmentation and had a minimum 1-year follow-up. The mean age of patients included in this study was 53.6 ± 9.0 years (range: 35-64 years) with 3 female and 7 male patients. The mean follow-up time was 30.7 ± 14.3 months (range: 12-49 months). Five patients had 1, 3 had 2, and 2 had 3 previous cuff surgeries.
Clinical Outcomes
Overall, postoperative range of motion increased significantly with flexion (P < .01) and abduction (P = .04) but not with external rotation (P = .16) (Table 1, Fig 1). Postoperative clinical scores increased significantly (Table 1, Fig 2). In addition, sex and body mass index had no correlation with clinical outcomes (ASES, single assessment numeric evaluation, Simple Shoulder Test, visual analog scale, flexion, abduction and external rotation; all P > .05).
Table 1Pre- and Postoperative Mean Scores and Range of Motion
Score
Preoperative
Postoperative
P Value
VAS
7.2 ± 0.9
3.1 ± 0.9
<.01
SANE
6.6 ± 2.3
65.1 ± 10.9
<.01
ASES
28.1 ± 5.4
60.9 ± 9.0
<.01
SST
1.6 ± 0.5
10.3 ± 5.7
<.01
Active flexion, °
97 ± 13.6
151.0 ± 12.2
<.01
Active abduction, °
88 ± 14.0
134.0 ± 15.1
.04
Active external rotation, °
38 ± 5.7
50.5 ± 6.4
.16
ASES, American Shoulder and Elbow Surgeons; SANE, single assessment numeric evaluation; SD, standard deviation; SST, Simple Shoulder Test; VAS, visual analog scale.
Biologic Findings and Correlation to Clinical Outcomes
Data analysis regarding the nucleated cells and number of CFUs only revealed a significant correlation for less pain and increased nucleated cells (P = .03), but no correlation could be found between failure rate and the number of cells (P = .43) (Table 2).
Table 2Regression Cell Analysis of BMA During Arthroscopic Revision Cuff Surgery
None of the 10 patients who underwent revision arthroscopic RC repair augmented using the Fibrin-clot technique had intra- or postoperative complications. However, 4 patients (40%) showed clinical failure and failure on postoperative MRI with weakness and pain.
Discussion
The most important finding of this study was that 60% of the patients undergoing revision arthroscopic RC repair augmented using the Fibrin clot technique achieved significant improvement in functional and clinical outcomes at a minimum 1-year follow-up. Although 40% of the patients showed clinical failure and failure on postoperative MRI with continuous weakness and pain.
Over the past decade, the incidence of arthroscopic RC repairs has increased by almost 600% with high satisfactory rates being reported.
However, retears, which are noted to occur in between 13% and 80% of the cases, remain highly challenging for orthopaedic surgeons. To this, almost 25% of those retears are observed within the first 2 years after surgery,
The current literature is focused on novel augmentation techniques using biologic adjuvants to support the healing potential of torn tendons, as the endogenous healing potential of torn tendons appears to be limited.
Preliminary clinical outcomes following biologic augmentation of arthroscopic rotator cuff repair using subacromial bursa, concentrated bone marrow aspirate, and platelet-rich plasma.
Analysis of time to form colony units for connective tissue progenitor cells (stem cells) harvested from concentrated bone marrow aspirate and subacromial bursa tissue in patients undergoing rotator cuff repair.
Concentrated bone marrow aspirate and subacromial bursa-derived cells demonstrate similar cellular adhesion and proliferation potential on demineralized bone matrix scaffolds for biologic augmentation of rotator cuff repair.
Biologic augmentation of rotator cuff repair with mesenchymal stem cells during arthroscopy improves healing and prevents further tears: A case-controlled study.
As such, bone marrow remains one of the most commonly used sources of MSCs for biological augmentation. Clinically, its application in patients with RC tears results in promising outcomes including decreasing retear rates and improved healing outcomes.
Biologic augmentation of rotator cuff repair with mesenchymal stem cells during arthroscopy improves healing and prevents further tears: A case-controlled study.
recently demonstrated that progenitor cells only averaged about 1 per 30,000 nucleated cells in BMA obtained from the iliac crest. Interestingly, endogenous application of PRP was recently demonstrated to prompt the differentiation of tendon stem cells into active tenocytes, exhibiting high proliferation rates and collagen production capability.
As such, novel, more safer techniques to obtain bone marrow emerged in recent years. Although aspiration of bone marrow from the iliac crest is still considered the “gold standard,”
Aspiration of osteoprogenitor cells for augmenting spinal fusion: Comparison of progenitor cell concentrations from the vertebral body and iliac crest.
first described the proximal humerus to be a more desirable source of MSCs for RC repair due to its ease of attainment. The authors stated that the ability to obtain the sample under direct visualization during RC reconstruction makes the proximal humerus an ideal location, even though the proximity of the axillary nerve and artery make the proximal humerus amenable to similar risks. More importantly, BMA concentrate has been shown to contain more growth factors with anti-inflammatory and anabolic potential as well as up to 3 times more nucleated cells when compared with PRP.
Moreover, harvesting and processing BMA concentrate from either the ilium or the humerus is noted to be an expensive, time-consuming procedure with highly debatable cost-effectiveness.
When scanning current literature, only a limited amount of studies with mostly small case series have investigated the effectiveness of biological augmentation using BMA. As such, most of the studies investigated BMA for augmenting single-row RC repairs.
Biologic augmentation of rotator cuff repair with mesenchymal stem cells during arthroscopy improves healing and prevents further tears: A case-controlled study.
Biologic augmentation of rotator cuff repair with mesenchymal stem cells during arthroscopy improves healing and prevents further tears: A case-controlled study.
Subsequently, it is still not well understood how these techniques are helping in inducing endogenous RC healing. Also, definite conclusions regarding the clinical efficacy of BMA applications have not been drawn to date. As per Carr and Rodeo,
this is mainly due to inconsistent relationships between successful RC healing and clinical outcomes scores as well as disparities in underlying pathologies, repair techniques, lack of control groups, and patient demographics.
In addition, the current literature focuses on patients requiring primary RC repair, as revision RC still remains highly challenging. However, the data from this study show that the fibrin clot technique with cBMA obtained from the proximal humerus may be clinical practicable procedure with no intraoperative complications recorded. However, the high failure rate of 40% still arises the question, if future invasive procedures such as superior capsular reconstruction or reverse shoulder arthroplasty may be still avoided in this young patient cohort.
Limitations
There were several limitations to the study. Although the data were collected prospectively, the chart review was performed retrospectively and may create a selection bias. Also, as this study only reported on outcomes of a single surgeon’s practice, external validity may be limited in terms of both patient population and surgical technique. Moreover, the sample size was small; however, this reflects daily clinical practice, as the number of patients undergoing revision RC surgery remains limited. In addition, the large patient-individual variability in harvested biologic adjuvants, including PRP, and cBMA, also may have influenced the results. In addition, this study only reports on preliminary outcomes after a minimum 1-year follow-up; thus, it remains to be seen if patients will maintain significant improvement in shoulder function over a longer-term. Lastly, MRIs or ultrasound scans were not available to evaluate for the status of the repaired tendon and comorbidities were not taken into account when performing the statistical analysis.
Conclusions
Patients who underwent biologic augmentation of revision arthroscopic RC repair using an autologous fibrin scaffold and concentrated BMA demonstrated a significant improvement in shoulder function along with reduction of pain. However, the overall revision rate for this procedure was 40%.
Biologic augmentation of rotator cuff repair with mesenchymal stem cells during arthroscopy improves healing and prevents further tears: A case-controlled study.
Does application of moderately concentrated platelet-rich plasma improve clinical and structural outcome after arthroscopic repair of medium-sized to large rotator cuff tear? A randomized controlled trial.
A practical tool for evaluating function: the simple shoulder test.
in: Matsen F.A. Fu F.H. Hawkins R.J. The shoulder: A balance of mobility and stability. American Academy of Orthopaedic Surgeons,
Rosemont, IL1993: 501-518
The influence of trocar fenestration and volume on connective tissue progenitor cells (stem cells) in arthroscopic bone marrow aspiration from the proximal humerus.
Preliminary clinical outcomes following biologic augmentation of arthroscopic rotator cuff repair using subacromial bursa, concentrated bone marrow aspirate, and platelet-rich plasma.
Analysis of time to form colony units for connective tissue progenitor cells (stem cells) harvested from concentrated bone marrow aspirate and subacromial bursa tissue in patients undergoing rotator cuff repair.
Concentrated bone marrow aspirate and subacromial bursa-derived cells demonstrate similar cellular adhesion and proliferation potential on demineralized bone matrix scaffolds for biologic augmentation of rotator cuff repair.
Aspiration of osteoprogenitor cells for augmenting spinal fusion: Comparison of progenitor cell concentrations from the vertebral body and iliac crest.
The authors report the following potential conflicts of interest or sources of funding: A.D.M. reports research grants from Arthrex. K.B. is a consultant for Arthrex and receives royalties from Arthrex. A.V. is a consultant for DJO Global. The University of Connecticut Health Center / UConn Musculoskeletal Institute has received direct funding and material support for this study from Arthrex Inc. (Naples, Florida, U.S.A.). The company had no influence on study design, data collection or interpretation of the results or the final manuscript. Further conflict of interest statements can be found in the attached files. Full ICMJE author disclosure forms are available for this article online, as supplementary material.
The study was performed at the University of Connecticut, Farmington, Connecticut, U.S.A.
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